Classical mechanics question Document1 - Microsoft Word (Product Activation Failed)FileHomeInsertPage LayoutReferencesMailingsReviewViewa ?% CutA Find -Calibri (Body)- 11- A AAaAaBbCcDc AaBbCcDc AaBbC AaBbCc AaB AaBbCcLE Copya ReplacePasteB I U - abe x, xA-I NormalChangeStylesI No Spaci. Heading 1Heading 2TitleSubtitleA Select -Format PainterClipboardFontParagraphStylesEditingConsider a pendulum consisting of a massless rod of length l and a spèrical bob of radius r.Using the Lagrange formalism obtain the angular frequency w for small oscilltions. Note:Since the bob is not a point mass the moment of inertia around the pivot must be calculatedusing the parallel axis theorem.Wll12:57 PM2021-11-09Page: 1 of 1Words: 0B I E E E 90% e|图可

Given: A pendulum, Massless rod having length, l Radius of bob, r To find: Angular frequency, ω

Consider a pendulum consisting of a massless rod of length l and a spèrical bob of radius r. Using the Lagrange formalism obtain the angular frequency w for small oscillations. Note: Since the bob is not a point mass the moment of inertia around the pivot must be calculated using the parallel axis theorem.

Consider a pendulum consisting of a massless rod of length l and a spèrical bob of radius r. Using the Lagrange formalism obtain the angular frequency w for small oscillations. Note: Since the bob is not a point mass the moment of inertia around the pivot must be calculated using the parallel axis theorem.

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Classical mechanics question

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Consider a pendulum consisting of a massless rod of length l and a spèrical bob of radius r.
Using the Lagrange formalism obtain the angular frequency w for small oscilltions. Note:
Since the bob is not a point mass the moment of inertia around the pivot must be calculated
using the parallel axis theorem.
W
ll
12:57 PM
2021-11-09
Page: 1 of 1
Words: 0
B I E E E 90% e
|图可

Branch of physics that focuses on the motion of an object when subjected to external forces. The object will be in equilibrium when the external forces are balanced.

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